Book contents
- Frontmatter
- Contents
- Preface
- List of abbreviations
- 1 Introduction
- 2 Elementary functional methods
- 3 Schwinger–Fradkin methods
- 4 Lasers and crossed lasers
- 5 Special variants of the Fradkin representation
- 6 Quantum chaos and vectorial interactions
- 7 Infrared approximations
- 8 Models of high-energy, non-Abelian scattering
- 9 Unitary ordered exponentials
- Index
Preface
Published online by Cambridge University Press: 13 August 2009
- Frontmatter
- Contents
- Preface
- List of abbreviations
- 1 Introduction
- 2 Elementary functional methods
- 3 Schwinger–Fradkin methods
- 4 Lasers and crossed lasers
- 5 Special variants of the Fradkin representation
- 6 Quantum chaos and vectorial interactions
- 7 Infrared approximations
- 8 Models of high-energy, non-Abelian scattering
- 9 Unitary ordered exponentials
- Index
Summary
Physics, and indeed all of Science and rational Life, is a causal affair. Events occur in a well-defined way; and even though nonlinear effects may mask a precise understanding of an underlying mechanism, there can be no rational doubt that cause preceeds effect. The mathematical expression of this truth is couched in the language of Green's functions (GFs), originally invented to provide solutions to electrostatic problems, and subsequently generalized to give compact expression to the causality which appears in time-dependent situations.
At the same time, it has become at least partially clear that when a very large number of iterations of an interaction are associated with the nonlinear, or strong-coupling description of a system, it is not always possible to link specific causes with observed effects. Thus the transition to chaos observed first in the multiple repetition of simple maps, and then in the fractal behavior of physical fluids as they approach fully developed turbulence; thus the realization that strongly coupled gluons and quarks of QCD need not propagate in the causal manner expected from perturbative approximations. Causality is clearly and explicitly true in weakly coupled systems, even though this property can be masked when essential nonlinear dynamics prevent the identification of a specific effect as due to a specific cause.
In recent years, utilization of GF techniques has grown to encompass an immense number of disparate subjects, including application to the large-scale structure of nonlinear systems.
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- Chapter
- Information
- Green's Functions and Ordered Exponentials , pp. ix - xPublisher: Cambridge University PressPrint publication year: 2002